The global 3D printing gases market is anticipated to grow at a CAGR of 12.0% during the forecast period (2022-2028). 3D printers represent additive manufacturing (AM). Under 3D printing, a designer creates a digital image on the computer, which is then printed by a 3D printer, which sprays composite material layer by layer to create the desired object. AM made significant contributions to medicine. For instance, Invisalign, a healthcare company has used 3D printing to produce dental devices. Dentists can use 3d printers to make ceramic crowns.
The automotive and aerospace industries are also pushing the demand for 3D printing. Automotive and aerospace designs often require highly complex parts assemblies therefore any initiative to simplify assembly is welcomed by industry players. 3D printing is cost-effective which supports saving time and reduces potential failure modes through reduced joint welding. For instance, in 2018, GE Aircraft announced that it has begun production of fuel nozzles made by 3D printers which are 25% lighter than those manufactured through an old process.
Browse the full report description of “3D Printing Gases Market Size, Share & Trends Analysis Report, By Type (Nitrogen, Argon, and Gas Mixtures), By Technology (Stereolithography, Laser Sintering, Poly-Jet, Binder-Jetting Technology, Electron Beam Melting Technology, and Fused Disposition Modeling), By End-Use Industry (Manufacturing & Design, Healthcare, Consumer Products, Automotive, Aerospace & Defense, and Education & Research), Forecast Period (2022-2028)” at https://www.omrglobal.com/industry-reports/3d-printing-gases-market
In April 2017, Boeing Co. hired Norsk Titanium AS to print the structural titanium parts for its 787 Dreamliner and by doing so it expected to save $2 to $3 million for each plane. The auto industry is keeping pace by effectively utilizing 3D printing. Due to stricter environmental norms, volatile oil prices and increasing competition, companies are running towards complex equipment designs to achieve operational efficiency. The ability to produce complex components is turning 3D printing into a must-have technology for the automotive industry. For instance, In June 2022, General Motors, the American automaker was able to produce 60,000 parts for its Chevrolet Tahoe 2022 in just 5 weeks with the support of 3D Printing. In December 2021, Local Motors announced a new set of upgrades for its 3D printed self-driving electric vehicle, Olli 2.0. Thus, there is a major push for use of 3D printing across industries, and the surge in demand is driving the global 3D printing gases market.
Market Coverage
• The market number available for – 2021-2028
• Base year- 2021
• Forecast period- 2022-2028
• Segment Covered-
o By Type
o By Technology
o By End-Use Industry
• Regions Covered-
o North America
o Europe
o Asia-Pacific
o Rest of the World
• Competitive Landscape- Linde plc, Air Products and Chemicals Inc., BASF SE, Air Liquide S.A., and Praxair Inc.
Key questions addressed by the report
• What is the market growth rate?
• Which segment and region dominate the market in the base year?
• Which segment and region will project the fastest growth in the market?
• How COVID-19 impacted the market?
o Deviation from the pre-COVID-19 forecast
o Most affected region and segment
• Who is the leader in the market?
• How players are addressing challenges to sustain growth?
• Where is the investment opportunity?
Global 3D Printing Gases Market Report by Segment
By Type
By Technology
by End-Use Technology
Global 3D Printing Gases Market Report by Region
North America
• United States
• Canada
Europe
• UK
• Germany
• Italy
• Spain
• France
• Rest of Europe
Asia-Pacific
• China
• India
• Japan
• South Korea
• Rest of Asia-Pacific
Rest of the World
• Latin America
• Middle East & Africa
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